Removal of chloride ion from drinking water using Ag NPs-Modified bentonite: Characterization and optimization of effective parameters by response surface methodology-central composite design

The presence of chloride ion as an environmental pollutant is having a devastating and irreversible effect on aquatic and terrestrial ecosystems. To ensure safe and clean drinking water, it is vital to remove this substance using non-toxic and eco-friendly methods. This study presents a novel and hi...

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Published inEnvironmental research Vol. 223; p. 115484
Main Authors Moradi, Hamidreza, Sabbaghi, Samad, Mirbagheri, Naghmeh Sadat, Chen, Pu, Rasouli, Kamal, Kamyab, Hesam, Chelliapan, Shreeshivadasan
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Inc 15.04.2023
Subjects
Adsorption
Adsorption process
Ag NPs-modified bentonite
Bentonite - chemistry
Chloride ion
Chlorides
Drinking Water
Ecosystem
Hydrogen-Ion Concentration
Kinetics
Na-bentonite
Spectroscopy, Fourier Transform Infrared
Thermodynamics
Water Pollutants, Chemical - chemistry
Drinking water
Na-bentonite
Adsorption process
Ag NPs-modified bentonite
Chloride ion
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Abstract The presence of chloride ion as an environmental pollutant is having a devastating and irreversible effect on aquatic and terrestrial ecosystems. To ensure safe and clean drinking water, it is vital to remove this substance using non-toxic and eco-friendly methods. This study presents a novel and highly efficient Ag NPs-modified bentonite adsorbent for removing chloride ion, a common environmental pollutant, from drinking water using a facile approach. The surface chemical properties and morphology of the pristine Na-bentonite and Ag NPs-Modified bentonite were characterized by field emission scanning electron microscopy (FESEM) and X-ray spectroscopy (EDX), X-Ray diffraction (XRD), Fourier transform infrared (FTIR), and zeta potential (ζ). To achieve maximum chloride ion removal, the effects of experimental parameters, including adsorbent dosage (1–9 g/L), chloride ion concentration (100–900 mg/L), and reaction time (5–25 h), were examined using the Response Surface Methodology (RSM). The chloride ion removal of 90% was obtained at optimum conditions (adsorbent dosage: 7 g/L, chloride ion concentration: 500 mg/L, and reaction time: 20 h). The adsorption isotherm and kinetics results indicated that the Langmuir isotherm model and pseudo-second-order kinetics were found suitable to chloride ion removal. Additionally, the regeneration and reusability of the Ag NPs-modified bentonite were further studied. In the regeneration and reusability study, the Ag NPs-modified bentonite has shown consistently ≥90% and ≥87% chloride ion removal even up to 2 repeated cycles, separately. Thus, the findings in this study provided convincing evidence for using Ag-NPs modified bentonite as a high-efficiency and promising adsorbent to remove chloride ion from drinking water. •The chloride ion was removed from drinking water using Ag NPs-modified bentonite.•The morphology and characterization of the adsorbent were investigated.•The effect of different parameters was studied using design expert software.•A considerably high maximum adsorption capacity of 107.64 mg/g was acquired.•The Langmuir isotherm and pseudo-second-order kinetics fitted to experimental data.
AbstractList The presence of chloride ion as an environmental pollutant is having a devastating and irreversible effect on aquatic and terrestrial ecosystems. To ensure safe and clean drinking water, it is vital to remove this substance using non-toxic and eco-friendly methods. This study presents a novel and highly efficient Ag NPs-modified bentonite adsorbent for removing chloride ion, a common environmental pollutant, from drinking water using a facile approach. The surface chemical properties and morphology of the pristine Na-bentonite and Ag NPs-Modified bentonite were characterized by field emission scanning electron microscopy (FESEM) and X-ray spectroscopy (EDX), X-Ray diffraction (XRD), Fourier transform infrared (FTIR), and zeta potential (ζ). To achieve maximum chloride ion removal, the effects of experimental parameters, including adsorbent dosage (1–9 g/L), chloride ion concentration (100–900 mg/L), and reaction time (5–25 h), were examined using the Response Surface Methodology (RSM). The chloride ion removal of 90% was obtained at optimum conditions (adsorbent dosage: 7 g/L, chloride ion concentration: 500 mg/L, and reaction time: 20 h). The adsorption isotherm and kinetics results indicated that the Langmuir isotherm model and pseudo-second-order kinetics were found suitable to chloride ion removal. Additionally, the regeneration and reusability of the Ag NPs-modified bentonite were further studied. In the regeneration and reusability study, the Ag NPs-modified bentonite has shown consistently ≥90% and ≥87% chloride ion removal even up to 2 repeated cycles, separately. Thus, the findings in this study provided convincing evidence for using Ag-NPs modified bentonite as a high-efficiency and promising adsorbent to remove chloride ion from drinking water. •The chloride ion was removed from drinking water using Ag NPs-modified bentonite.•The morphology and characterization of the adsorbent were investigated.•The effect of different parameters was studied using design expert software.•A considerably high maximum adsorption capacity of 107.64 mg/g was acquired.•The Langmuir isotherm and pseudo-second-order kinetics fitted to experimental data.
The presence of chloride ion as an environmental pollutant is having a devastating and irreversible effect on aquatic and terrestrial ecosystems. To ensure safe and clean drinking water, it is vital to remove this substance using non-toxic and eco-friendly methods. This study presents a novel and highly efficient Ag NPs-modified bentonite adsorbent for removing chloride ion, a common environmental pollutant, from drinking water using a facile approach. The surface chemical properties and morphology of the pristine Na-bentonite and Ag NPs-Modified bentonite were characterized by field emission scanning electron microscopy (FESEM) and X-ray spectroscopy (EDX), X-Ray diffraction (XRD), Fourier transform infrared (FTIR), and zeta potential (ζ). To achieve maximum chloride ion removal, the effects of experimental parameters, including adsorbent dosage (1-9 g/L), chloride ion concentration (100-900 mg/L), and reaction time (5-25 h), were examined using the Response Surface Methodology (RSM). The chloride ion removal of 90% was obtained at optimum conditions (adsorbent dosage: 7 g/L, chloride ion concentration: 500 mg/L, and reaction time: 20 h). The adsorption isotherm and kinetics results indicated that the Langmuir isotherm model and pseudo-second-order kinetics were found suitable to chloride ion removal. Additionally, the regeneration and reusability of the Ag NPs-modified bentonite were further studied. In the regeneration and reusability study, the Ag NPs-modified bentonite has shown consistently ≥90% and ≥87% chloride ion removal even up to 2 repeated cycles, separately. Thus, the findings in this study provided convincing evidence for using Ag-NPs modified bentonite as a high-efficiency and promising adsorbent to remove chloride ion from drinking water.
ArticleNumber 115484
Author Chen, Pu
Moradi, Hamidreza
Kamyab, Hesam
Chelliapan, Shreeshivadasan
Sabbaghi, Samad
Rasouli, Kamal
Mirbagheri, Naghmeh Sadat
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  givenname: Naghmeh Sadat
  surname: Mirbagheri
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  organization: Drilling Nano Fluid Laboratory, Shiraz University, Shiraz, Iran
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  givenname: Pu
  surname: Chen
  fullname: Chen, Pu
  organization: Department of Chemical Engineering, University of Waterloo, 200 University Avenue West, Waterloo, ON, N2L 3G1, Canada
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  givenname: Kamal
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  surname: Kamyab
  fullname: Kamyab, Hesam
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  organization: Faculty of Architecture and Urbanism, UTE University, Calle Rumipamba S/N and Bourgeois, Quito, Ecuador
– sequence: 7
  givenname: Shreeshivadasan
  surname: Chelliapan
  fullname: Chelliapan, Shreeshivadasan
  organization: Engineering Department, Razak Faculty of Technology and Informatics, Universiti Teknologi Malaysia, Jalan Sultan Yahya Petra, 54100, Kuala Lumpur, Malaysia
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Keywords Drinking water
Na-bentonite
Adsorption process
Ag NPs-modified bentonite
Chloride ion
Language English
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Snippet The presence of chloride ion as an environmental pollutant is having a devastating and irreversible effect on aquatic and terrestrial ecosystems. To ensure...
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StartPage 115484
SubjectTerms Adsorption
Adsorption process
Ag NPs-modified bentonite
Bentonite - chemistry
Chloride ion
Chlorides
Drinking Water
Ecosystem
Hydrogen-Ion Concentration
Kinetics
Na-bentonite
Spectroscopy, Fourier Transform Infrared
Thermodynamics
Water Pollutants, Chemical - chemistry
Title Removal of chloride ion from drinking water using Ag NPs-Modified bentonite: Characterization and optimization of effective parameters by response surface methodology-central composite design
URI https://dx.doi.org/10.1016/j.envres.2023.115484
https://www.ncbi.nlm.nih.gov/pubmed/36775091
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